PCR-BASED FLUORESCENT METHOD FOR RAPID DETECTION OF SALMONELLA TYPHIMURIUM IN POULTRY SAMPLES

A DNA binding fluorescence method based on polymerase chain reaction (PCR) products was evaluated for rapid detection of Salmonella Typhimurium in poultry products. Wash water samples of chicken carcasses and ground turkey were inoculated with S. Typhimurium to obtain final concentrations of 10° - 10⁵ CFU/mL. One mL of each sample was used to get the DNA template and 5 μL of the sample template was added into 25 μL of SYBR Green PCR Master Mix and two specific Salmonella ompC gene primers. The negative control was the same except 5 μL of each wash solution was added instead of 5 μL sample template. The reaction was carried out in a thermocycler. Finally, the fluorescence signal of each PCR product was measured using a fluorometer. The PCR products were also confirmed by ethidium bromide agarose gel, and the DNA concentrations of the PCR products were measured by a filter fluorescence photometer. The results showed that when bacterial cells increased from 0 to 2 CFU/mL, the fluorescence signal increased significantly. The PCR-based fluorescence method could detect the target bacteria in minutes after PCR amplification compared to hours by gel electrophoresis and also could be done at an earlier time during PCR amplification. The detection limit of this method for S. Typhimurium in the poultry samples was 2 CFU/mL without any enrichment.     

Evaluation of the specificity of Salmonella PCR primers using various intestinal bacterial species

AIMS: Nine sets of PCR primers targeting Salmonella were evaluated for their specificity with pure cultures of intestinal-associated bacteria prior to their application to Salmonella detection in faecal samples. METHODS AND RESULTS: Gene targets of PCR primers included: 16S rDNA, a Salmonella pathogenicity island I virulence gene, Salmonella enterotoxin gene (stn), invA gene, Fur-regulated gene, histidine transport operon, junction between SipB and SipC virulence genes, Salmonella-specific repetitive DNA fragment, and multiplex targeting invA gene and spvC gene of the virulence plasmid. Fifty-two Salmonella strains were used to determine sensitivity; five strains from related genera and 45 intestinal bacteria were used to evaluate specificity. All primers amplified DNA from Salmonella strains, although two primer sets failed to amplify Salmonella DNA from either Salmonella bongori (hilA) or subgroups VI or VII (16S rDNA). There was no detected amplification of DNA from related bacterial genera with any of nine PCR assays. Six of the PCR assays amplified DNA for some intestinal bacteria. CONCLUSIONS: Only three primer pairs were determined to be suitable for application of PCR amplification of Salmonella in faecal samples - 16S rDNA, stn and histidine transport operon. We are currently evaluating their sensitivity of detection of Salmonella in faecal samples. SIGNIFICANCE AND IMPACT OF THE STUDY: This study demonstrated the importance of internal lab validation of PCR primers prior to application to the type of samples of interest. Information from this evaluation can be applied in other labs to facilitate choosing Salmonella PCR primers.     

Evaluation of broiler litter with reference to the microbial composition as assessed by using 16S rRNA and functional gene markers

Very little is known about the microbial composition of animal bedding wastes, including poultry litter, and what is known has been deduced from standard culture methods, by which some fastidious organisms that exist in the environment may not be detected. We evaluated the bacterial composition of poultry litter by using a combination of culture and molecular detection. Total aerobic bacteria in poultry litter were detected by culture at 10(9) CFU/g of material. Enteric bacteria such as Enterococcus spp. and coliforms composed 0.1 and 0.01%, respectively, of the total aerobic cultivatable bacteria in poultry litter; no Salmonella strains were detected by culture. In order to characterize the most abundant bacterial groups, we sequenced 16S ribosomal DNA (rDNA) genes amplified by PCR with microbial community DNA isolated from poultry litter as the template. From the 16S rDNA library, 31 genera were identified. Twelve families or groups were identified with lactobacilli and Salinococcus spp. forming the most abundant groups. In fact, 82% of the total sequences were identified as gram-positive bacteria with 62% of total belonging to low G+C gram-positive groups. In addition to detection of 16S rDNA sequences associated with the expected fecal bacteria present in manure, we detected many bacterial sequences for organisms, such as Globicatella sulfidofaciens, Corynebacterium ammoniagenes, Corynebacterium urealyticum, Clostridium aminovalericum, Arthrobacter sp., and Denitrobacter permanens, that may be involved in the degradation of wood and cycling of nitrogen and sulfur. Several sequences were identified in the library for bacteria associated with disease in humans and poultry such as clostridia, staphylococci, and Bordetella spp. However, specific PCR targeting other human and veterinary pathogens did not detect the presence of Salmonella, pathogenic Escherichia coli, Campylobacter spp., Yersinia spp., Listeria spp., or toxigenic staphylococci. PCR and DNA hybridization revealed the presence of class 1 integrons with gene cassettes that specify resistance to aminoglycosides and chloramphenicol. Only from understanding the microbial community of animal wastes such as poultry litter can we manage animal disease and limit the impact of animal waste on the environment and human and animal health.     

APPLICATION OF POLYMERASE CHAIN REACTION-OLIGONUCLEOTIDE LIGATION ASSAY FOR THE DETECTION OF SALMONELLAE IN PROCESSED MEAT, POULTRY, FISH, AND PET FOODS

We have tested a rapid and sensitive DNA-based assay for the detection of Salmonella serovars in a number of different processed meat, fish, poultry, and pet food samples. This technique uses an enrichment broth cultivation followed by a Salmonella-specific polymerase chain reaction (PCR) and oligonucleotide ligation assay (OLA) to specifically detect amplified PCR products in an ELISA-based microtiter plate format. The combined cultivation and PCR-OLA techniques were compared with a conventional culture method and with DNA hybridizations of PCR products for the detection of Salmonella bacteria. Eighty-one different processed meat, poultry, and pet food samples were screened for the presence of Salmonella serovars after 24 h and 48 h of enrichment broth cultivation. After 24 h of incubation, one ground turkey sample was positive by both culture and PCR-OLA (100% sensitivity and 100% specificity). After 48 h of incubation, two additional samples (ground beef and a dog food sample) were positive by both culture and PCR-OLA (100% sensitivity and 100% specificity), and three other samples (two ground beef samples and one ground turkey) were positive only by PCR-OLA (96.1% specificity). All positive PCR-OLA results were confirmed in DNA hybridizations with an oligonucleotide specific for the amplified PCR product. When compared to conventional culture, the combined 48 h enrichment and PCR-OLA had a positive predictive value of 50% and a negative predictive value of 100%. We concluded that a combined cultivation and PCR-OLA could be used as a sensitive and specific presumptive screening method for detecting Salmonella serovars in processed meat, fish, poultry, and pet foods.     

A comparison of conventional culture and three rapid methods for the detection of Salmonella in poultry feeds and environmental samples

Three rapid methods, an impedance method (Malthus 2000 Analyzer), a colorimetric DNA hybridization method (Gene-Trak) and a post-enrichment enzyme-linked immunosorbent assay (Salmonella-Tek) were compared with conventional culture for the detection of Salmonella in poultry feeds, and in fluff and dust samples from poultry housing. The percentage positive samples for Salmonella by each of the methods were 25.5% for conventional culture, 38.4% for the Malthus, 28.9% for the Gene-Trak and 28.5% for the Salmonella-Tek. By any method 60/153 (39.2%) of the samples tested were positive on confirmed culture.     

Identification of a Brevibacterium marker gene specific to poultry litter and development of a quantitative PCR assay

Aim: To identify a DNA sequence specific to a bacterium found in poultry litter that was indicative of faecal contamination by poultry sources. Methods and Results: Faecally contaminated poultry litter and soils were used as source material for the development of a quantitative polymerase chain reaction (qPCR) method targeting the 16S rRNA gene of a Brevibacterium sp. The identified sequence had 98% nucleotide identity to the 16S rRNA gene of Brevibacterium avium. The qPCR method was tested on 17 soiled litter samples; 40 chicken faecal samples; and 116 nontarget faecal samples from cattle, swine, ducks, geese, and human sewage collected across the United States. The 571‐bp product was detected in 76% of poultry‐associated samples, but not in 93% of faecal samples from other sources. Marker concentrations were 10⁷–10⁹ gene copies per gram in soiled litter, up to 10⁵ gene copies per gram in spread‐site soils, and 10⁷ gene copies per litre in field run‐off water. Results were corroborated by a blinded study conducted by a second laboratory. Conclusion: The poultry‐specific PCR product is a useful marker gene for assessing the impact of faecal contamination as a result of land‐applied poultry litter. Significance and Impact of the Study: This study describes the first quantitative, sensitive and specific microbial source tracking method for the detection of poultry litter contamination.     

用环介导等温扩增技术快速检测粪便样本中的沙门菌

目的:建立快速检测粪便样本中的沙门菌的环介导等温扩增技术(LAMP),并着重在灵敏度和特异性方面对此方法进行评价。方法:利用LAMP针对沙门菌特定基因invA(靶基因)设计的6条特异引物,通过引物特异性识别特定基因invA上的8个独立区域来快速检测沙门菌;LAMP反应过程中会产生白色沉淀焦磷酸镁,故可以通过监测浊度来判定反应结果。结果:实时浊度仪监测反应结果表明,LAMP反应在60~65℃等温条件下50 min内完成;如果在反应前添加羟基萘酚兰,蓝色阳性结果很明显区别于紫色阴性结果;LAMP的最低检出限为6.97 pg/μL,PCR为69.7pg/μL,LAMP方法的检测灵敏度是PCR的10倍,且具有良好的特异性。结论:LAMP方法用于快速检测沙门菌,具有检测过程简单、实验装置简便、反应结果肉眼可辨、灵敏度高、特异性强的特点,对非沙门菌菌株的结果呈阴性,表明引物设计有很好的特异性。对粪便样本进行检测,发现具有同样的敏感性和特异性。这表明LAMP法是潜在的和有价值的在粪便样本中直接检测沙门菌的方法,具有快速、简便、低成本的特点。LAMP法适用于快速临床诊断。     

环介导间接PCR检测方法的建立

建立环介导间接PCR检测体系,为分子诊断提供一种新的检测工具。以质粒pUC18的核苷酸序列为模板,设计两条特异性探针,采用常规PCR技术将特异性探针标记于大豆Lectin基因的左右两端充当报告基因,此标记的报告基因与待检的pUC18质粒经杂交和缺口补平后形成一环状DNA分子,然后采用反向PCR技术扩增报告基因,建立针对pUC18质粒的环介导间接PCR检测方法。结果表明,该检测方法的检测底限为0.32 pg/μL,与常规PCR相当,并且与其他质粒和动物DNA检测无交叉反应,是一种简单、快速、灵敏、特异的PCR检测方法。     

Detection and typing of Helicobacter pylori cagA/vacA genes by radioactive,one-step polymerase chain reaction in stool samples from children

The detection and molecular typing of Helicobacter pylori virulence genes in human stool specimens by polymerase chain reaction (PCR) require an adequate amount of bacterial DNA and an appropriately adjusted PCR protocol. DNA was isolated from stool samples of 39 H. pylori-infected and nine uninfected Colombian children using the QIAamp Kit following the manufacturer's instructions but with modifications. DNA templates were amplified for the vacA s and m regions and for the cagA gene by PCR using radioactively labeled (32P) primers. The modifications in the standard Qiagen protocol of stool DNA extraction increased the final concentration of eluted total stool DNA 4.7 times (117 +/- 17 versus 22 +/- 3 ng/microl; P < 0.0001). Nevertheless, its amplification by regular PCR programs (30-40 cycles) did not generate visible signals because of the very low ratio of H. pylori DNA to other DNA. PCR for 80 cycles successfully amplified vacA in 36/39 samples (sensitivity, 92.3%) and cagA fragments in 21/39 (53.8%) fecal DNA samples. Both s and m vacA regions were amplified in 33/36 (91.7%) DNA samples. The s1m1 genotype was the most commonly isolated variant, accounting for 17/36 or 47.2% of positive samples. The s2m2 genotype was ascertained to be frequent also (14/36 or 38.9%). Almost all (94.1%) s1m1 genotypes were cagA positive. The majority of s2m2 genotypes (78.6%) were not associated with the cagA gene. Neither cagA nor vacA fragments were amplified from DNA isolates of H. pylori-uninfected children nor from DNA isolated from six gastrointestinal bacterial strains (specificity, 100%). The data suggest that the proposed modified technique of DNA extraction and PCR assay of stool samples may be an effective and reliable noninvasive tool for the detection and typing of H. pylori cagA/vacA virulence genes in infected individuals.     

Direct detection of Shigella flexneri and Salmonella typhimurium in human feces by real-time PCR

We have established a SYBR Green-based realtime PCR method using AnyDirect solution, which enhances PCR from whole blood, for direct amplification of the virA gene of Shigella flexneri and the invA gene of Salmonella typhimurium from human feces without prior DNA purification. When we compared the efficiency of conventional or realtime PCR amplification of the virA and invA genes from the supernatant of boiled feces supplemented with S. flexneri and S. typhimurium in the presence or absence of AnyDirect solution, amplification products were detected only in reactions to which AnyDirect solution had been added. The detection limit of real-time PCR was 1 x 10(4) CFU/g feces for S. flexneri and 2 x 10(4) CFU/g feces for S. typhimurium this sensitivity level was comparable to other studies. Our real-time PCR assay with AnyDirect solution is simple, rapid, sensitive, and specific, and allows simultaneous detection of S. flexneri and S. typhimurium directly from fecal samples without prior DNA purification.     

Molecular identification of Salmonella isolates from poultry and meat productsin Irbid City,Jordan

The sensitivity and accuracy of molecular diagnosis of Salmonella from meat and poultry products using polymerase chain reaction (PCR) was compared with conventional microbiological methods. A total of 212 samples representing the most frequently used fresh and frozen meat and poultry products (whole, cut, ground, and processed) were collected from different locations within the city of Irbid. DNA was extracted directly from each food sample and amplified using Salmonella-specific primers. Samples were also analysed using conventional microbiological methods for the presence of Salmonella spp. Results showed that Salmonella was detected in 185 samples out of 212 (87%) by PCR technique, while 172 (81%) samples were detected Salmonella positive by conventional microbiological methods. On the other hand, 27 (12.7%) samples were negative by PCR and 40 (18.8%) samples were negative by conventional microbiological methods. PCR assay proved to be an effective method for Salmonella detection in meat and poultry products with high specificity and sensitivity and more importantly a less time-consuming procedure. Using PCR, Salmonella spp. detection could be achieved within 24–36 h compared to 3–8 days for the conventional microbiological methods.     

Real-time PCR method for detection of pathogenic Yersinia enterocolitica in food

The current methods for the detection of pathogenic Yersinia enterocolitica bacteria in food are time consuming and inefficient. Therefore, we have developed and evaluated in-house a TaqMan probe-based real-time PCR method for the detection of this pathogen. The complete method comprises overnight enrichment, DNA extraction, and real-time PCR amplification. Also included in the method is an internal amplification control. The selected primer-probe set was designed to use a 163-bp amplicon from the chromosomally located gene ail (attachment and invasion locus). The selectivity of the PCR method was tested with a diverse range (n = 152) of related and unrelated strains, and no false-negative or false-positive PCR results were obtained. The sensitivity of the PCR amplification was 85 fg purified genomic DNA, equivalent to 10 cells per PCR tube. Following the enrichment of 10 g of various food samples (milk, minced beef, cold-smoked sausage, fish, and carrots), the sensitivity ranged from 0.5 to 55 CFU Y. enterocolitica. Good precision, robustness, and efficiency of the PCR amplification were also established. In addition, the method was tested on naturally contaminated food; in all, 18 out of 125 samples were positive for the ail gene. Since no conventional culture method could be used as a reference method, the PCR products amplified from these samples were positively verified by using conventional PCR and sequencing of the amplicons. A rapid and specific real-time PCR method for the detection of pathogenic Y. enterocolitica bacteria in food, as presented here, provides a superior alternative to the currently available detection methods and makes it possible to identify the foods at risk for Y. enterocolitica contamination.     

A rapid, sensitive and automated method for detection of Salmonella species in foods using AG-9600 AmpliSensor Analyzer

The AG-9600 AmpliSensor Analyzer is an automated fluorescence-based system for detection of polymerase chain reaction (PCR) products. The principle of the AmpliSensor PCR assay involves amplification-mediated disruption of a fluorogenic DNA signal duplex (AmpliSensor) that is homologous to a target sequence within a 284-bp amplified fragment of the Salmonella invA gene. Since the assay is homogenous, the data can be obtained by direct measurement of fluorescence of the amplification mixture. The accumulation of the amplified product, reflected by the fluorescence index, is monitored cycle by cycle by the AG-9600 Analyzer. The detection limit of the assay was less than 2 colony-forming units (cfu) per PCR reaction using a pure culture of Salmonella typhimurium. In post-spiking experiments in which Salmonella was added to the overnight pre-enriched samples (chicken carcass rinses, ground beef, ground pork and raw milk), the detection limit of the assay was 2–6 cfu per PCR reaction. In pre-spiking experiments in which Salmonella was added to the samples prior to overnight pre-enrichment, the detection limit was less than 3 cfu per 25 g or 25 ml of food. The assay was up to 2 orders of magnitude more sensitive than detection by ethidium bromide-stained agarose gel electrophoresis. To further evaluate assay performance, 54 naturally contaminated chicken carcass rinses, 65 raw milk and six ground pork samples were tested in the study. Thirty-eight Salmonella- positive samples confirmed by the Modified Semi-solid Rappaport-Vassiliadis (MSRV) culture assay were found positive using the AmpliSensor assay. Two chicken carcass rinses found positive using the assay were MSRV-negative. In addition, relative quantification using the AmpliSensor assay was linear up to 3 logs of initial target concentration in artificially contaminated food samples.     

采用分子生物学技术诊断隐球菌脑膜脑炎的研究

目的采用分子检测技术对疑似隐球菌感染的脑膜炎病例进行诊断。方法收集患者的脑脊液样本,提取DNA,设计引物进行PCR扩增,采用DNA芯片技术对扩增产物进行分子检测。结果显示样本新生隐球菌阳性。结论通过ITS保守序列设计引物进行PCR扩增和DNA芯片技术对常规真菌学检查不能确定的疑似隐球菌脑膜炎患者脑脊液样本进行非培养检测,具有实验室诊断参考价值。     

Impacts of poultry house environment on poultry litter bacterial community composition

Viral and bacterial pathogens are a significant economic concern to the US broiler industry and the ecological epicenter for poultry pathogens is the mixture of bedding material, chicken excrement and feathers that comprises the litter of a poultry house. This study used high-throughput sequencing to assess the richness and diversity of poultry litter bacterial communities, and to look for connections between these communities and the environmental characteristics of a poultry house including its history of gangrenous dermatitis (GD). Cluster analysis of 16S rRNA gene sequences revealed differences in the distribution of bacterial phylotypes between Wet and Dry litter samples and between houses. Wet litter contained greater diversity with 90% of total bacterial abundance occurring within the top 214 OTU clusters. In contrast, only 50 clusters accounted for 90% of Dry litter bacterial abundance. The sixth largest OTU cluster across all samples classified as an Arcobacter sp., an emerging human pathogen, occurring in only the Wet litter samples of a house with a modern evaporative cooling system. Ironically, the primary pathogenic clostridial and staphylococcal species associated with GD were not found in any house; however, there were thirteen 16S rRNA gene phylotypes of mostly gram-positive phyla that were unique to GD-affected houses and primarily occurred in Wet litter samples. Overall, the poultry house environment appeared to substantially impact the composition of litter bacterial communities and may play a key role in the emergence of food-borne pathogens.     

Screening of virus specific primers against the Cassava mosaic virus

Abstract

Five different Indian cassava mosaic virus (ICMV) specific primers were used to screen the virus from CMD affected samples collected from the different parts of Tamil Nadu. Out of five specific primers, three were designed to amplify the specific viral genes of ICMV and two were used for detection of ICMV. All primers amplified specific regions of the virus in all samples. The specific primer for amplification of coat protein gene of ICMV amplified 800 bp of coat protein gene from both ICMV and Sri Lankan cassava mosaic virus (SLCMV) infected samples invariably. The specific primer for amplifying movement protein (MP) gene amplified about 900 bp of movement protein gene from all CMD infected cassava samples. Likewise, 800 bp of nuclear shuttle protein (NSP) gene was amplified from all the samples. The primer ICMV A amplified 700 bp of PCR product from mosaic diseased cassava samples. A 300 bp product from DNA A of the virus amplified in all samples using the primer ICMV A₁.     

Development of PCR-based methods for detection of Sphaerothecum destruens in fish tissues

Single-round and nested polymerase chain reaction (PCR) tests were developed for amplification of a 434 bp fragment of the small subunit ribosomal RNA (18S rRNA) gene from Sphaerothecum destruens, previously known as the rosette agent, an intracellular parasite of salmonid fishes. Both tests have successfully amplified S. destruens-specific DNA from different isolates of S. destruens but not from related organisms. The limits of detection using the nested PCR test were 1 pg for purified S. destruens genomic DNA and 0.1 fg for plasmid DNA. We conducted 2 experimental transmission studies, consisting of injection or waterborne exposure of juvenile winter-run Chinook salmon Oncorhynchus tshawytscha to spore stages of the parasite. In the injection study, parasite DNA was detected in 100% of kidney samples from exposed fish (n = 83) at 1 and 3 mo post-exposure using nested PCR, versus 98% using microscopic analysis of Gram-stained impression smears made from the kidney. Following waterborne exposure, fish were sampled over the course of a year. From each fish, samples of gill, liver, posterior intestine and kidney were analyzed. S. destruens-specific DNA was detected most often in gill and kidney over the course of the experiment, and 71% (64/90) of the exposed fish were identified as positive for S. destruens using the nested PCR test, versus 16% (14/90) using microscopic analysis of Gram-stained kidney smears. Natural infections in captive broodstock of adult winter-run Chinook salmon, originally diagnosed by examination of Gram-stained kidney smears, were confirmed using the nested PCR test in all fish examined (15/15). Further, the nested test amplified parasite-specific DNA from other tissues in these fish with varying frequencies. This report introduces the first DNA-based detection method for S. destruens, to be used alone as a diagnostic tool or in conjunction with histologic tests for confirmatory identification of the parasite.     

Use of the polymerase chain reaction for Salmonella detection

J. KWANG, E.T. LITTLEDIKE AND J.E. KEEN. 1996. A primer set of oligonucleotides (S18 and S19) from the _omp C gene of Salmonella has been evaluated for specific detection of Salmonella by polymerase chain reaction (PCR). This primer set successfully amplified 40 Salmonella serovars (60 isolates), but not 24 non-Salmonella bacteria (42 isolates) that have been tested so far. The uniqueness of these primer sequences was also confirmed. The sensitivity of PCR detection in extracted chromosomal DNA for Salm. typhimurium was 1 pg. The sensitivity for boiled whole bacteria was 400 cells. The detection of Salm. typhimurium in ground beef samples required 4–6 h enrichment with an initial inocula of 100 bacteria.     

致病性大肠埃希菌和沙门菌毒力岛基因的双重PCR检测方法的建立

目的实现对致病性大肠埃希菌（E．coli）、沙门菌（Salmonella）的同时检测,建立快速灵敏的双重PCR检测方法。方法以致病性大肠埃希菌和沙门菌毒力岛基因为研究对象,根据GenBank发表的大肠埃希菌和沙门菌毒力岛基因序列,分别设计合成了大肠埃希菌毒力岛irpl、irl）2和fyuA,沙门菌毒力岛mgtC、sseL和sopB等6对引物,以禽致病性大肠埃希菌（CVCC1565）菌株和沙门菌（ATCC9150）菌株的核酸混合物为模板,经引物特异性试验,引物组合,成功建立了快速鉴别检测致病性大肠埃希菌和沙门菌的双重PCR方法。结果特异性试验结果显示,引物irpl、irp2和fyuA仅能扩增出大肠埃希菌（CVCC1565）的特异性片段,大小分别是799、414和948bp;引物mgtC、sseL和sopB仅能扩增出沙门菌（ATCC9150）的特异性片段,大小分别是500、269和1000bp。敏感性试验结果表明大肠埃希菌和沙门菌的最低检测限分别为2．2×101CFU／mL和2．0×101CFU／mL。结论本研究建立的双重PCR方法具有特异性强、敏感性高、快速简便等特点,可用于致病性大肠埃希菌和沙门菌的联合检测与鉴别诊断。     

Rapid detection of Campylobacter coli,C. jejuni,and Salmonella enterica on poultry carcasses by using PCR-enzyme-linked immunosorbent assay

Contamination of retail poultry by Campylobacter spp. and Salmonella enterica is a significant source of human diarrheal disease. Isolation and identification of these microorganisms require a series of biochemical and serological tests. In this study, Campylobacter ceuE and Salmonella invA genes were used to design probes in PCR-enzyme-linked immunosorbent assay (ELISA), as an alternative to conventional bacteriological methodology, for the rapid detection of Campylobacter jejuni, Campylobacter coli, and S. enterica from poultry samples. With PCR-ELISA (40 cycles), the detection limits for Salmonella and Campylobacter were 2 x 10(2) and 4 x 10(1) CFU/ml, respectively. ELISA increased the sensitivity of the conventional PCR method by 100- to 1,000-fold. DNA was extracted from carcass rinses and tetrathionate enrichments and used in PCR-ELISA for the detection of Campylobacter and S. enterica, respectively. With PCR-ELISA, Salmonella was detected in 20 of 120 (17%) chicken carcass rinses examined, without the inclusion of an enrichment step. Significant correlation was observed between PCR-ELISA and cultural methods (kappa = 0.83; chi-square test, P < 0.001) with only one false negative (1.67%) and four false positives (6.67%) when PCR-ELISA was used to screen 60 tetrathionate enrichment cultures for SALMONELLA: With PCR-ELISA, we observed a positive correlation between the ELISA absorbance (optical density at 405 nm) and the campylobacter cell number in carcass rinse, as determined by standard culture methods. Overall, PCR-ELISA is a rapid and cost-effective approach for the detection and enumeration of Salmonella and Campylobacter bacteria on poultry.